摘要:
A method for manufacturing a semiconductor device that fills contact holes with conductive material such as aluminum or an aluminum alloy. A semiconductor device is manufactured by the process of forming an opening such as a contact hole in an interlayer dielectric film formed on a semiconductor substrate having a device element formed thereon. A first film and a second film made of conductive material such as aluminum or an alloy containing aluminum are formed on the interlayer dielectric film and the opening. The second film is then gradually cooled.
摘要:
A semiconductor device includes a semiconductor substrate having a device element, an interlayer dielectric layer (silicon oxide layer, BPSG layer) formed on the semiconductor substrate, a through hole defined in the interlayer dielectric layer, a barrier layer formed on surfaces of the interlayer dielectric layer and the through hole, and a wiring layer formed on the barrier layer. The barrier layer includes a first metal oxide layer formed from an oxide of a metal that forms the barrier layer (e.g., a first titanium oxide layer), a metal nitride layer formed from a nitride of the metal that forms the barrier layer (e.g., a titanium nitride layer), and a second metal oxide layer formed from an oxide of the metal that forms the barrier layer (e.g., a second titanium oxide layer). The semiconductor device thus manufactured has a barrier layer of an excellent barrier capability.
摘要:
A semiconductor device comprising a semiconductor substrate including an electronic element such as a MOSFET, interlayer dielectric (silicon oxide layer or BPSG layer) formed on the semiconductor substrate, a through-hole formed in the interlayer dielectric, a barrier layer formed on a surface of the interlayer dielectric and on a surface of the through-hole, and a metal wiring layer formed on the barrier layer. The metal wiring layer contains aluminum as its major component and 0.1 wt % to 3 wt % of beryllium. An aluminum alloy can be embedded in the through-hole without creation of any void or breaking of wire, and the semiconductor device is highly resistant to electro-migration.
摘要:
A developing device is provided which includes: a developing roller in contact with or facing an image hearer; a supply roller to supply toner to the developing roller; a casing; a first conveyer disposed within the casing and above the supply roller to supply toner stored in the developing device to the supply roller, while forming a first conveyance path; a second conveyer disposed within the casing with an upper end thereof positioned below that of the first conveyer, while forming a second conveyance path forming a toner circulation path together with the first conveyance path; a partition wall separating the first conveyance path and the second conveyance path in a longitudinal direction within a range excluding both longitudinal end portions; and a toner supply port, at a ceiling of the casing above the second conveyance path, through which toner is supplied to an inside of the developing device.
摘要:
A process unit includes a rotatable image bearer, an optical writing head to expose the image bearer within an maximum exposure range in an axial direction of the image bearer, a developer bearer, spacers disposed in axial end portions of the image bearer to determine a position of the optical writing head relative to the image bearer and slidingly contact the image bearer, a cleaner disposed downstream from the developer bearer in an image bearer rotation direction, and a remover to slidingly contact the axial end portion of the image bearer to remove a substance adhering thereto. In the axial direction, inner ends of the spacers are positioned inside a toner layer range of the developer bearer extending beyond a largest sheet width. The remover is disposed downstream from the cleaner and crossing a line extending from the inner end of the spacer perpendicularly to the axial direction.
摘要:
An optical recording and reproducing apparatus according to the present invention utilizes an angle multiplexing interfering method to record multiple pieces of recording data on an optical recording medium. Recording conditions for the multiple recording and management information such as addresses are recorded in the same book according to a coaxial interfering method. In a reproduction mode, the management information is read from a hologram formed according to the coaxial interfering method. The management information is utilized to quickly read the recording data from a hologram formed according to the angle multiplexing interfering method.
摘要:
A developing device includes a toner bearer to rotate while bearing toner and a toner regulator including a bend on a free end side. The bend is disposed in contact with a surface of the toner bearer and defines a regulation nip to adjust an amount of the toner on the toner bearer. The toner regulator further includes an area having a water contact angle greater than or equal to 70 degrees. The area having the water contact angle includes, at least, a downstream end of the bend in a rotation direction of the toner bearer.
摘要:
A lighting device is provided with a number of light sources and a driving circuit. Each of the light sources includes a plurality of light emitting elements which emit respective light having different wavelengths, combines the respective light into white light, and emit the white light onto a flat display panel. The driving circuit periodically drives the light sources in accordance with driving pattern signals each corresponding to the ratio between times for which the light emitting elements emit the respective light, and shifts the phases of the driving pattern signals relative to each other for the light sources.
摘要:
Certain embodiments of the present invention relate to a semiconductor device that has a pad section having an excellent coherency with an interlayer dielectric layer, and a method for manufacturing the same. A semiconductor device 1000 has a pad layer 30A formed over an interlayer dielectric layer 20. The interlayer dielectric layer 20 includes at least a first silicon oxide layer 20b that is formed by a polycondensation reaction of a silicon compound and hydrogen peroxide, and a second silicon oxide layer 20c formed over the first silicon oxide layer and containing an impurity. The pad section 30A includes a wetting layer 32, an alloy layer 34 and a metal wiring layer 37.
摘要:
A semiconductor device having a contact structure that can exhibit superlative step coverage without causing voids or wiring discontinuities, using aluminum or aluminum alloys as a conductive substance for via-holes. A method of fabricating the semiconductor device comprises, for at least one layer of wiring regions above the first wiring region on a semiconductor substrate, the following steps (a) to (f): (a) a step of forming a via-hole in a second interlayer dielectric formed above the first wiring region on a semiconductor substrate; (b) a degassing step for removing gaseous components included within the interlayer dielectric by a heat treatment under reduced pressure and at the substrate temperature of 300° C. to 550° C.; (c) a step of forming a wetting layer on the surface of the interlayer dielectric and the via-hole; (d) a step of cooling the substrate to a temperature of no more than 100° C.; (e) a step of forming a first aluminum layer comprising one of aluminum and an alloy in which aluminum is the main component on the wetting layer at a temperature of no more than 200° C.; and (f) a step of forming a second aluminum layer comprising one of aluminum and an alloy in which aluminum is the main component on the first aluminum layer at a temperature of at least 300° C.